Volume 254, 2024

Permutation symmetry in spin-adapted many-body wave functions

Abstract

In the domain of exchange-coupled polynuclear transition-metal (PNTM) clusters, local emergent symmetries exist which can be exploited to greatly increase the sparsity of the configuration interaction (CI) eigensolutions of such systems. Sparsity of the CI secular problem is revealed by exploring the site permutation space within spin-adapted many-body bases, and highly compressed wave functions may arise by finding optimal site orderings. However, the factorial cost of searching through the permutation space remains a bottleneck for clusters with a large number of metal centers. In this work, we explore ways to reduce the factorial scaling, by combining permutation and point group symmetry arguments, and using commutation relations between cumulative partial spin and the Hamiltonian operators, Image ID:d4fd00061g-t1.gif. Certain site orderings lead to commuting operators, from which more sparse wave functions arise. Two graphical strategies will be discussed, one to rapidly evaluate the commutators of interest, and one in the form of a tree search algorithm to predict how many and which distinct site permutations are to be analyzed, eliminating redundancies in the permutation space. Particularly interesting is the case of the singlet spin states for which an additional reversal symmetry can be utilized to further reduce the number of distinct site permutations.

Graphical abstract: Permutation symmetry in spin-adapted many-body wave functions

Associated articles

Supplementary files

Article information

Article type
Paper
Submitted
15 mar. 2024
Accepted
17 abr. 2024
First published
23 abr. 2024
This article is Open Access
Creative Commons BY license

Faraday Discuss., 2024,254, 261-294

Permutation symmetry in spin-adapted many-body wave functions

M. Song, A. Alavi and G. Li Manni, Faraday Discuss., 2024, 254, 261 DOI: 10.1039/D4FD00061G

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